Machine for coating frankfurters



Dec. 22, 1953 G. J. WRIGHT ET AL 2,663,281

MACHINE FOR COATING FRANKFURTERS Original Filed Nov. 25, 1948 8 Sheets-Sheet 1 INVENTORS 650265 J n e/af/r @4424 J lMe/a/ r G. J. WRIGHT ET AL MACHINE FOR COATING FRANKFURTERS 8 Sheets-Sheet 2 1 I z l l A I I I l l 1 l I I l l I l I l l l l v l x 4 1 0 l l l I l I l l 1 1 l 1 l x x l I n a l l l l x l a 1 v0 ZNVENTORS 6026 L/ W/6//7 44214 d 1 1/2461 BY if Dec. 22, 1953 Original Filed Nov. 25, 1948 G. J. WRIGHT ET AL MACHINE FOR COATING FRANKFURTERS Dec. 22, 1953 Original Filed Nov. 25, 1948 8 Sheets-Sheet 3 Dee; 22, E953 G. J. WRIGHT ETAL. 2,563,231

MACHINE FOR COATING FRANKFURTERS Original Filed Nov. 25, 1948 8 Shets-Sheet 5 it'ii- INVENTORS 650265 WQ/Gf/T PALPH J WR/fif Dec. 22, 1953 G. J. WRIGHT ET AL 3 MACHINE FOR COATING FRANKFURTERS Original Filed Nov. 25, 1948 8 Sheets-Sheet 6 [I] I NVENTOR [i 650255 a. Wew-v/ QALPH (J l Z/E/GHT Dec. 22, 1953 G. J. WREGHT ETAL MACHINE FOR COATING FRANKFURTERS Original Filed Nov.

8 Sheets-$heet 7 ZNVENTORS 650265 a, I/MQ/GHZ' FALp/ 1 1/06 BY Dec 22, 1953 G. J. WRIGHT ET AL 2,653,231

MACHINE FOR COATING FRANKFURTERS Original Filed Nov. 25, 1948 8 Sheets-Sheet 8 l I 1/ 1 /1 z/ x/ F k Illa: I I I J M thereon, and. during such inter-engagement of the frankfurter and batter coating on the roller, the frankfurter and roller are caused to rotate about their respective longitudinal axes so as to transfer a uniform coating of batter to the periphery of the frankfurter. Frankfurters are introduced to the machine by being initially deposited upon a conveyor l8 which comprises a pair of endless chains l9 and 2| supported and spaced in substantially parallel vertical planes and having transversely aligned upper and lower runs 22 and 23. Connected between the chains l3 and 2| and extending horizontally therebetween are a plurality of dish-shaped trays 24 which, as viewed in Figure 5, are of elongated form arranged with their concave side uppermost on the top run 22 for receiving in each of the trays, a frankfurter. The top run 22 of the conveyor moves from left to right, as viewed in Figures 4 and 5, to a delivery end 26 of the conveyor about which the trays 24 swing downwardly and invert to the under run 23 of the conveyor. At this point, the frankfurters H are deposited onto a pair or transversely spaced arcuate fingers 21 which, in turn, guide the frankfurters downwardly and slightly rearwardly onto the periphery of a rotating cylinder 28. This cylinder is mounted for rotation about a horizontal axis directly under and approximately coterminous with the transverse dimension of the conveyor l8 so that the frankfurters are deposited onto the periphery of the cylinder 28 with their longitudinal axes approximately horizontally arranged. Provided on the periphery of the cylinder 28 in circumferentially spaced relation are a plurality of elevator bars 23 which extend longitudinally of the cylinder and serve to pick up in succession frankfurters deposited on the roller periphery and to carry such frankfurters in an arcuate course of movement with the cylinder. around one side of the cylinder, being the left side as viewed in Figure 4, are a plurality of spring supported pressure rolls 3| which are mounted in an arcuate arrangement in spaced concentric "relation to the cylinder 28 so as to define an arcuate passageway 32 therebetween. As will best be seen from Figures 3 and 4, the pressure'rolls 3| are of hollow tubular form, each mounted on a centrally arranged helical spring 33 which extends lengthwise through the rolls and is secured at opposite spirally reduced ends 34 and 36, to arcuately shaped supporting arms 3'! and 38 disposed in vertical planes adjacent the opposite ends of the cylinder 28. The rolls 3| are thus resiliently supported for movement to and from the periphery of the cylinder 28 while at the same time being permitted free individual rotation. Preferably, the radial spacing between the cylinder periphery and the rolls 3|, that is, the transverse dimension of the passageway 32, is somewhat less than the normal thickness or diameter of the frankfurter, whereby the latter, in being transported through the passageway, will be firmly and rigidly supported between the periphery of the cylinder and the succession of rolls 3 I.

Advantage is taken of this firmly supported positioning of the frankfurter and its precise course of movement through the passageway 32 for transfer of the frankfurter to a second conveyor 39 for movement to the batter coating roller I1 and to other parts and operations of the machine. One of the principal features of conveyor 39 is its support of frankfurters exclusively at the opposite ends of the frankfurters with the Spaced til iii)

entire periphery of the frankfurter exposed for processing as herein provided and to additionally permit rotation of the frankfurter while being so supported about its longitudinal axis. This important supporting of the frankfurter is herein provided by a plurality of impaling pins carried by the conveyor 39 in transversely spaced and aligned relation so as to be insertable into and removable from the opposite ends of the frankfurter axially thereof. As will be best seen from Figures 3 and 4, these pins are arranged in transversely aligned pairs each consisting of the pins 4| and 42, and are spaced at regular intervals along the length of the conveyor.

The conveyor 39 consists of two endless chains 43 and 44 mounted in spaced substantially vertical planes at the opposite ends of the conveyor l8 and the cylinder 28, and having upper and lower runs 46 and 41 ,with the corresponding runs of the chains having parallel courses of movement. One end 48 of the conveyor 33 is concentrically aligned with the passageway 32 so that the corresponding ends of chains 43 define the opposite ends of the passageway 32 and are caused to move in an arcuate course precisely aligned with the arcuate space of the passageway. The pins 4| and 42, as above mentioned, are carried transversely of the conveyor and the inner extremities 49 and 5| of the pins project into the space between the chains 43 and 44. As an important'feature of the construction of the pins, the latter are reciprocally carried in sleeves 52 and 53, also providing the spacers for the respective chains, and, additionally, the pins are journaled for rotation in these sleeves. Accordingly, the pins 4| and 42 are carried by their respective chains 43 and 44 in an arcuate course of movement around the end 48 of the conveyor in a positi'on'substantially precisely at the transverse center of the arcuate passageway 32 in which the frankfurters are carried and supported as above described.

A common drive for chains 43 and 44 is provided so that the opposite pins 4| and 42 are moved in unison and in transversely aligned relation, such movement is timed to the movement of the conveyor 33 and the cylinder 28, so that the pins 4| and 42 are moved through the space 32 at the same speed as the frankfurters are deposited onto and carried by the elevator bars 2!? on the periphery of the cylinder 28. The arrangement and support of the conveyor 39 is such that the upper run 46 moves to the left, as viewed in Figures 4 and 5, so as to enter the passageway 32 at the upper end thereof above the cylinder 28. Likewise, the driving of conveyor I8 in a timed relation to the conveyor 39 and cylinder 28 effects a depositing of frankfurters onto the cylinder 28 at intervals corresponding to their speed of removal by the elevator bars 29. Also, the timing between conveyor 39 and cylinder 28 is such that each frankfurter carried through space 32 will be at all times directly aligned with a pair of pins 49 and 5|.

The transfer of the frankfurter onto the pins 49 and 5| is efiected by causing an inward displacement of the pins while traversing the passageway 32 so that these pins will be inserted from a relatively retracted or outward position into the opposite ends of a frankfurter being simultaneously carried through the passageways as above described. Means for so displacing the pins here consists of a pair of identical cams 54 and 56 mounted at the opposite sides of the machine generally aligned with the passageway 32.

answer 'l'fiese cams." are of segment-elf cylindrical? shape: llavingend faceswhiclrzspiralinwardly and servet to= engage'iieadsSIand 58': on the' outer ends off pins" 41 and disc as to urge and displace these" pins" inan inward direction whiletraversing the passageway 32. I

Thebatter applyingroller-flhereinabove noted ismounted with its periphery-in close proximity to the bottom run" 47' of conveyor wsorasto present its periphery in coactin-grelatibn tofrank f urt'ers carried by the lower runof the conveyor; upon leaving the conveyor-'end' 38 where the frankfurters are transferred ts the conveyor asabove. described. A's will bethu's seen i romFigjuie's4 and 51 the-rolleris j ourn-aled' 01 rotation upon a horizontal-shaft- 9$, parallel to thebo'ttom runs-1'! of the chain's 4'4 an'dflias a length somewhat lesstl ianthespacingbetween theseiruns so that the full lengthof theroller periphery is presentedthe space traversed by the frankfurter. As will best beseen Figure 4; tliefra'nkfurters' I 6 are carried by" the bottom run 41 of the conveyor in close proximity tothe top ofthe IO'IIC'T'FF, a recommended spacin-g bein-g approximately 5 '1 Batter is arranged to be supplied to the periphery of roller IT? for transfer to the transfurters as above described; andmeans:- for" so sup lying" the batter hereconsist. a batter-nont'ai'ner 61 within which: the periphery of the roller is eause'd to; move. Preferably; the contamer 6'1" is of sui-ri'cientsi ze to carry batter tor a considerable operation period of the machine, and extends from a point somewhat ahead" of roller [1 tothe front endot the machine, that-isttlie left end. as viewed: in Figure 1:. Widtltwise, as will" be seen from Figures 2 and 53 the con tainei" 6T has a somewhat-greater: dimension; than: the length of the roller H;.s"othat the run: length of the roller will be immersed in batter with l,

which the container is filled; Preferably, the bottom 62 inclines downwardly toward the roller H" to permit filling: of't'he' container fromtneend of the machine and to: insure: a proper flow of the batter to the roller periphery. As will also be noted from Figures 1 and 4, the axis of the roller shaft is approximately at the topfi3rof the batter container, so that the upper portion. of the roller periphery extends aloe be? the. level: of. the batter at all times. The roller is: arranged" to be rotated so as to coat. thev entire roller periphery batter and: particularly that" 1302-- tim extending above the container; and prefera-bly' a batter consistency and texture is used: that will provide a relatively thick: coatinglnfi batter on the roller; say approxixiaatelytd. 5

thickness. In this manner, a irankfurtertrav-= ersing the topof the roller in closely spaced relation thereto, as above described, will. intersect the batter coating, indicated bynurneral 5 1- on Figure *3. 1

In accordance with the present invention and:

' as a principal feature thereof, the frankf'urter is caused to rotate about its longitudinal axis. duringv the period of engagement-of the irankfnrtelj: with. the batter coating 64 on the rollenso as: to bring: all peripheral-portions of the irankiurter into contact. with the batter'coati-ng. In other words, the frankfurter is'cansed to rotate at least one complete revolution'wlzri-le contact with the batter supported on the: roller 11; order to have batter continuously'available for coating the frankfurter duringzits rotation, the. roller H is likewise rotated-the rotation oithe roller functioning to provide a. constant supply of batter to the frankfurter being coated. Actulias Beaumont? desirable to sopplyr atter' tutlieointerensased area; with; the frankiurterat a. faster rate. .tlianthe movement of-th-efrank: fiTlflIBlIi In thisymagnner; the batter" iscrowded onto. andlieaped' upon, the surface of the; frankfurter so as. to: permit a desired: thick, coating; to form onth'ei frankfurter" with a constantsurplusage of batter-from whiciit to. draw. The action is reatly facilitated by-selecting ad-ireotion of rotatibn of the: roller wherein the top off the roller moves: toward the oncoming: frankf-urter; This is a: county-clockwise direction of; rotation asviewed in" Figure-1E Also, to insure a maximum relative: movement of the frankfurter in the bat ter carried? on and sugported bythe roller, the franlifurteris caused to rotate a. direction 7 advancingthe lbwer'side ofj the frank furter into the: batten that is, a counter-clockwise rotation of the frankfurter: as viewedin Figure 4. Thislatter rotation of" the frankfurter also assists inthe elevation of the accumulated mass of batter at: the forward side ofthe frankfu-rter, thereby tending to raisethis? mass; over'and around the frankfurten whereby the frankfurter is thoroughly and completely enveloped by the batter.

While various relative diameters and rotatingspreeds of the roller and Frankfurter may be used, particularly witli various types ofbatter, it has been: found for a reiatively stiff batter a proportioning of, the rollerdiameter to a frankfurter; diameter approximatelyas indicated in the drawings satisfactoryi The usual diameterof. a. frankturter to beprocessed is approximately "7 and, the corresponding roller diameter, as here. showmisaoproximately 3; For these relative. diameters, a rotation of the roller of ap-- proximately three revolutions to each two. revolutibns of the frankfurter 'produces'satisfactory results. As, wilL be, appreciated, the. peripheral speed. of. the. roller determines. the. amount of; batter which. is, fed, to. the. inteliengaged, area of the. frankiurter and batter coating, and. this speed oi rotation of, the roller is. dependent upon the amount. of batter to be transferred to. the f-rankiurterand also upon'the; consistency of the batter itself.. A. batter coating, of approximately a on. the frankfurter isdesirable.v

As: above explamed. the. impaline pins 4 IV and 42 are fully inserted into the opposite ends. of the frankiurter during. its course of increment the. arcuate: passageway 32 and as the ira-nkfurter emerges from the; lower end of the passageway it. becomes disengaged from the lowermost. roller 34 and:- isv thereafter supported exclusively bythe pins- -4.9- and 5-6.. Such latter support not only exposes. the iull length of, the franlsfurter'to the roller.- il but also mounts the frankfurterfor rotation wit-nits coax-ially inseitted pins..- Rotatiorrzoi the-frankfurter is obtained by: causing thearota-ti'onof one of the pins 2 which, as will be. seen from Figure 5, is formed with a flattened extremity H in contrast to the pointed cylindrical extremity 4.9- of pin 4|. Each of the pins 4.2 is; provided, adjacent the head thereon, with a pinion 66 which is engaged, when in proximity to the batter roller H, with a rack 61'. The latter, as will bev seen from Figure 3, overlies the. pinion so as. to.- impart. thereto a desired direction of rotation as above described, and has. a length extending lengthwise of the travel oi the conveyor by a distance extending over the period of engagement of. a frankiurter with roller. l1.

The. fully coatedirankfurter is carried by the lower run 41 of the conveyor39 from the batter.

roller I! to the surface of a hot oil bath 68 contained in an open top trough-like receptacle 69 extending from adjacent the roller I! to adjacent the opposite or delivery end of the machine. Preferably, rotation of the frankfurter isfcontinued from the roller I! to the hot oil bath so as to assist in the uniform distribution of the batter around the periphery of the frankfurter and to retain such distribution. However, the direction of rotation of the frankfurter at its point of immersion in the oil is preferably reversed from that at the roller,'so that the forward surface of the frankfurter moves downwardly into the oil, that is, a clockwise rotation as viewed in Figure 4. Accordingly, a second rack l I, forming a substantial extension of rack 61,, is provided, but atan elevation to engage the under side of pinions 66. As will be seen from Figure 4, the receptacle B9 is mounted somewhat below the roller I1 and spaced forwardly therefrom, and the bottom run 41 of the conveyor is caused to descend rather sharply over idler rollers 12, into the container, so as to bring the frankfurter in contact with the liquid. As the frankfurter is caused to continue its rotation while coming in contact with the liquid, the engagement of the surface of the batter with the oil causes a flow of the batter into a final uniform distribution around the frankfurter and a smoothing out of the outer surface of the batter. At the same time, the batter coating, upon rotating through the oil, sets in its smooth and uniformly distributed state.

As another important feature of the present invention, the batter encased frankfurter is caused to traverse the hot oil bath in such a manner and while being rotated, as to produce a greatly improved product. More particularly, we have found that the frankfurter should be submerged in the oil by approximately the depth only of its batter coating. As will be seen from Figure 4, thelower runs 41 of the conveyor are engaged under idler wheels 13, thus disposing the pins 4! and 42 just above the upper surface 14 of the oil in the receptacle 69. Also, means is provided for rotating pins 42, and the frankfurters carried thereby, throughout their entire course of movement through the receptacle 69. This means is furnished in part by the aforedescribed rack H, which terminates at a point shortly after immersion of the frankfurters into the oil bath, and rotation is continued for theremaining travel in the container by a rack 16 which reengages the pinions on their upper sides after leaving rack 1|. With the arrangement of racks as thus set forth, the frankfurters are caused to reverse their direction of rotation after entry into the oil and throughout the majority of the cooking operation turn in a counter-clockwise direction as viewed in the drawings. By turning of the frankfurter contra to its direction of movement lengthwise in the receptacle, maximum surface displacement of the frankfurter in the oil results, with an attendant acceleration of cooking speed.

It has been found that the submersion of the product in the oil to approximately only the thickness of the batter coating at the bottom of the frankfurter, at which position the frankfurter is well above the float level of the coated frankfurter in the oil, affords a result greatly superior to that obtained from allowing the frankfurter to be cooked while entirely submerged. By contrast, where the frankfurter and its batter coating are fully submerged in the hot oil and retained therein for the required Eli cooking period, the portion of the batter coating next to the frankfurter tends to remain outer peripheral surface of the batter coating is exposed to the air above the surface of the oil, and the peripheral area submerged is being constantly carried up into the air space above the oil by rotation of the frankfurter. A considerable portion, therefore, of the cooking of the present food occurs in a heated atmosphere conducive to the escape of vaporized oil and moisture products. It is apparent that this arrangement is largely instrumental in obtaining a fritter enclosure for the frankfurter which is completely cooked, relatively oil free, and of a desired aerated texture. At the same time, by insuring a relatively oil-free fritter coating, the frankfurter itself is kept from absorbing an excess of cooking oil and is thus made more palatable and more readily digestible.

Under certain circumstances, as for different types of batters, it may be desired to cause the product to traverse the oil at different levels. One way of affording this in a very simple manner is to tilt the machine slightly by having one end somewhat higher than the other.

The oil in container 69 may be heated in any suitable manner, and is heated, in the present embodiment, by means of a plurality of electrical heating elements Tl, preferably thermostatically controlled to maintain an oil temperature of approximately 390 degrees F. to 400 degrees F. Also desirably, the outer wall of the container 69 is appropriately insulated, as with a jacket or shell of insulation material 18.

As will be best seen from Figures 1 and 2, the batter coated frankfurter is carried by the lower run 41 of conveyor 39 into the cooking container 69 adjacent one end thereof, being the left end as viewed in the drawings, and thereafter traverses the surface 14 of the oil to adjacent the opposite end of the container, from where the frankfurter is carried up out of the container into the delivery mechanism. As will be understood, the length of the container 69 and the relative speed of travel of conveyor 39 determine the cooking duration to which the food product is subjected. In the present embodiment, and in accordance with the cooking process hereinabove described, a cooking time of approximately one hundred seconds has been found satisfactory. This has been based upon speed of travel of the lower run 4? of the conveyor, corresponding to a length of travel in the oil of approximately eight inches per minute and a speed of rotation of the frankfurter while in contact with the oil of approximately twenty revolutions per minute.

As previously stated, when the cooking operation has thus been completed, the cooked product is elevated and withdrawn from the oil and for thispurpose, as will be clear from Figures 6, 7 and 8, the lower run 41 of the conveyor is moved upwardly and around idler wheels 19 defining a delivery end of the conveyor adjacent the far end of the receptacle 69. While traversing this delivery end of the conveyor, pins H and. 42 are retracted from the opposite war'dly'extending stop pins 92 are s r the upper ends of plates serving to engage and positiv 3 stop" t'fieii ritinued movement of the franliffi-r'tei s iivith tlfe' cdiiveyor. As will best be seen from Figure 6, the arrangement of the cams 84 anggfi s as i9 cea es 99 1 9 929 siragii of the pins AI and 42 error to'th'eir reaching the pins 92 wbcnehy the extremities A9 and 5! of the g ming pins wil r the'stop p ls 92 of the frankfurters by pins 92 causes the pins to shear through and become detached from such fritter extensions.

Delivery arms 8| are mounted centrally of their length on a horizontal shaft 93 positioned in endwise spaced relation to the arcuate peripheries of guard plates 89 and through the arcuate plane of the guard plates, it being noted that the spacing of the arms 8| along the shaft 93 is such as to position the arms between the guard plates. Also, as will be best seen from Figure '7, the arms 8|, as viewed in side elevation, are curved to provide concave portions 94 approximately aligned with the descending frankfurters released at stop pins 92, so as to support the frankfurters with the length transversely arranged with respect to the machine. Drive means is provided for the shaft arm 93 so as to rotate the concave arm portions aforesaid through an arc in excess of 90 degrees for delivery of the frankfurters onto the top 82 of the delivery chute, the latter being provided with spaced fingers 96 staggered transversely from the arms 8|, to thereby permit the movement of arms through the fingers for transfer of the frankfurters. Since the arc of rotation of the arms 8| intersects the course of movement of the frankfurter impaling pins 4i and 42, the arms 8| must be swung into frankfurter receiving position in timed relation to the passage of the impaling pins. In other words, the delivery arms 8I swing into and out of frankfurter receiving position in the interval between passing of the successive pairs of impaling pins. This 7 anti a r ichin s oid nb' a d ve hem? a e a ted box a thes e cf th machine, t e sheave being'securedto a transversely extending 3 shaft "lot- 115611 which 'the elevator cy1inder28 s eq ated. s e F ure a n drive sprocket I 2 isalso'secured" on shaft IilI-and' enmeshed sm-tie s ame Reed 5 of t m on 39 see Fig'ure3 Likewise secured to the'shaft i Wi h n the sea as ii was a gear n w ic enm he wi a s c n a s mq int aeiher tren v l e "s "i5- a' e'r weetie f r etained there h d r c t lii l engaged withthe'conveyor chains wand-'21,

' the sweepers III'I- defining thed-elivery end 26 of the conveyor "I 8 Rotation of the shaft 59 Q1- th batter iblier is effected by a belt I08 mountedonshaves I 09 and III on shafts I Iii and"59 "respectivelyf.' Thedrive connection for i the shaft' 93 o f t e delivery arms 51 ist'aken "off from the conveyor 39 at the discharge end there of by means'of a sprocket IIZ mounted on the side of the machine in alignment'with'andhlose proximity to "the idlerwheels' 19 and enmeshed with'chain '43. The shaft 113* ofthe sproc et I I Z'is journaled for rotation in 'agear 'case I I within which 'andsecured to shaft-I I3 is agea'r llfiw'hich is constantlyenmeshe'd with a gear- 7 m mounted on a *stub'sh'af-t m. Asegi'neiitm gear H9 is mounted for rotation withgear" I If and is" engageable with aompieiiientary seemental gear I2I of smaller diameter secured to the arm shaft 93 which extends into the casing I I4, it being noted that the engagement of the segmental gears H9 and I2I imparts an accelerated movement to the shaft 93 corresponding to the movement of the arms 8| into and through their receiving and delivery operation as above described. Also mounted on shaft 93 in alignment with gear II! is another segmental gear I22 arranged to enmesh with gear III during the arc of movement when segmental gears I2! and I22 are out of engagement. Segmental gear I22 has a diameter somewhat greater than gear II'i, so that during the period of engagement of these two gears there is a deceleration of the speed of rotation of the arm shaft 93.

We claim:

1. A machine for coating a frankfurter with batter comprising, a batter container, a roller mounted over said container with only a portion of its perimeter disposed within said container, a frankfurter conveyor mounted above said roller and including means to support frankfurters for linear movement over said roller in close proximity to the periphery thereof and with the longitudinal axes of the frankfurters and roller parallel, means rotating the roller, and means effecting rotation of the frankfurters independent of said roller rotation while moving over the roller.

2. A machine for coating a frankfurter with batter comprising, conveyor means comprising a pair of endless chains mounted in spaced relamea er tion and having substantially parallel courses of movement, means for driving said chains and at the same speed, an inwardly directed impaling pin rotatably mounted on each of said chains in aligned and opposed relation and arranged for axially supporting a frankfurter between said chains, a roller journaled for rotation about a relatively fixed axis at substantially right angles to said courses of movement and with the periphery of said roller positioned between said chains and in close proximity thereto, rotative drive means for said roller, a gear carried by one of said pins, a rack mounted for engagement with said gear for rotating said last named pin during movement thereof adjacent to said roller periphery.

3. A machine for coating a frankfurter with batter comprising, a batter container, a roller mounted with only a portion of its perimeter in said container, means for rotating said roller, conveyor means overlying said roller including a pair of parallel spaced members each having the same speed and a course of movement passing said roller periphery at substantially right angles to the axis of said roller and in close proximity to the periphery thereof, means for moving said members, opposed rotatably mounted impaling means carried by each of said members formed for releasable engagement with and support of the opposite ends of a irankfurter, and means rotating said impaling means during that portion of its course of movement with said members in proximity to said roller.

4. A machine for coating a frankfurter with batter comprising, a batter container, a substantially cylindrical roller and rotative drive means therefor mounted whereby only a portion of the perimeter of said roller is disposed within said container, an endless conveyor disposed over said roller and having a course of movement substantially normal to the axis of said roller and passing c 4 12 said roller periphery in spaced close proximity thereto, drive means for said conveyor, inwardly directed opposed frankfurter impaling means rotatably carried by said conveyor, and means rotating said impaling means during that portion of its course of movement with said conveyor in proximity to said roller.

5. A machine forcoating a frankfurter with batter comprising, a batter container having an open top, a roller journaled for rotation about a generally horizontal stationary axis with only a portion of the perimeter of said roller disposed in said container through the open top thereof, rotative drive means for said roller, conveyor means including a pair of endless chain members mounted in spaced parallel relation adjacent to the opposite ends of said roller and with the courses of movement of said chain members substantially perpendicular to said roller axis, inwardly directed frankfurter impaling means rotatably carried by said chain members and insertable within the opposite ends of a frankfurter to support the latter between said chain members for movement into close proximity with the periphery of saidroller, and means rotating said impaling means while in close proximity to said roller.

GEORGE J. WRIGHT. RALPH J. WRIGHT.

References Cited in the file of this patent UNITED STATES PATENTS 

